raze/polymer/build/src/mmulti.c

854 lines
28 KiB
C
Raw Normal View History

#include <stdio.h>
#include <stdlib.h>
#include <string.h>
#include <ctype.h>
#ifdef _WIN32
#define WIN32_LEAN_AND_MEAN
#include <winsock.h>
#else
#include <unistd.h>
#include <netinet/in.h>
#ifndef __BEOS__
#include <arpa/inet.h>
#endif
#ifdef __sun
#include <sys/filio.h>
#endif
#include <sys/ioctl.h>
#include <sys/socket.h>
#include <netdb.h>
#define SOCKET int
#define INVALID_HANDLE_VALUE (-1)
#define INVALID_SOCKET (-1)
#define SOCKET_ERROR (-1)
#define closesocket close
#define ioctlsocket ioctl
#define LPHOSTENT struct hostent *
#include "compat.h"
#include <sys/time.h>
static long GetTickCount(void)
{
struct timeval tv;
long ti;
if (gettimeofday(&tv,NULL) < 0) return 0;
// tv is sec.usec, GTC gives msec
ti = tv.tv_sec * 1000;
ti += tv.tv_usec / 1000;
return ti;
}
#endif
#ifdef KSFORBUILD
# include "baselayer.h"
# define printf initprintf
#endif
#ifndef min
#define min(a,b) ((a)<(b)?(a):(b))
#endif
#define MAXPLAYERS 16
#define MAXPAKSIZ 256 //576
#define PAKRATE 26 //Packet rate/sec limit ... necessary?
#define SIMMIS 0 //Release:0 Test:100 Packets per 256 missed.
#define SIMLAG 0 //Release:0 Test: 10 Packets to delay receipt
static long simlagcnt[MAXPLAYERS];
static char simlagfif[MAXPLAYERS][SIMLAG+1][MAXPAKSIZ+2];
#if ((SIMMIS != 0) || (SIMLAG != 0))
#pragma message("\n\nWARNING! INTENTIONAL PACKET LOSS SIMULATION IS ENABLED!\nREMEMBER TO CHANGE SIMMIS&SIMLAG to 0 before RELEASE!\n\n")
#endif
long myconnectindex, numplayers;
long connecthead, connectpoint2[MAXPLAYERS];
static long tims, lastsendtims[MAXPLAYERS];
static char pakbuf[MAXPAKSIZ];
#define FIFSIZ 512 //16384/40 = 6min:49sec
static long ipak[MAXPLAYERS][FIFSIZ], icnt0[MAXPLAYERS];
static long opak[MAXPLAYERS][FIFSIZ], ocnt0[MAXPLAYERS], ocnt1[MAXPLAYERS];
static char pakmem[4194304]; static long pakmemi = 1;
#define NETPORT 0x5bd9
static SOCKET mysock;
static long myip, myport = NETPORT, otherip[MAXPLAYERS], otherport[MAXPLAYERS];
static long snatchip = 0, snatchport = 0, danetmode = 255, netready = 0;
/*Addfaz NatFree Start*/
int natfree; //NatFree mode flag
int nfCurrentPlayer = 0; //Current NatFree player counter. Will only talk with one player at a time
int nfFinished = 0; //Flag that determines NatFree has found all players and set the correct port numbers [normal routines can then take place]
int HeardFrom[MAXPLAYERS]; //For connecthead
int HeardFrom2[MAXPLAYERS]; //For others
int nfCheckCP (long other) //Check if target player is our current NatFree Player
{
if (!natfree || nfFinished)
return 1;
else
if (nfCurrentPlayer == other) return 1;
return 0;
}
int nfCheckHF (long other) //function to check if we've heard from a player
{
if (HeardFrom[other] == 1)
return 1;
else
return 0;
}
void nfIncCP () //function to handle currentplayer increment
{
if (natfree && !nfFinished)
{
nfCurrentPlayer++; //Increment player counter
if (nfCurrentPlayer == myconnectindex) nfCurrentPlayer++; //Bypass my index
if (nfCurrentPlayer >= numplayers)
{
nfFinished = 1; //Set NatFree finished flag. Perform non-natfree networking routines
initprintf("natfree: all players accounted for.\n");
return;
}
}
}
/*Addfaz NatFree End*/
void netuninit ()
{
if (mysock != (SOCKET)INVALID_HANDLE_VALUE) closesocket(mysock);
#ifdef _WIN32
WSACleanup();
#endif
}
long netinit (long portnum)
{
LPHOSTENT lpHostEnt;
char hostnam[256];
struct sockaddr_in ip;
long i;
#ifdef _WIN32
WSADATA ws;
if (WSAStartup(0x101,&ws) == SOCKET_ERROR) return(0);
#endif
mysock = socket(AF_INET,SOCK_DGRAM,0); if (mysock == INVALID_SOCKET) return(0);
#ifdef __BEOS__
i = 1; if (setsockopt(mysock,SOL_SOCKET,SO_NONBLOCK,&i,sizeof(i)) < 0) return(0);
#else
i = 1; if (ioctlsocket(mysock,FIONBIO,(unsigned long *)&i) == SOCKET_ERROR) return(0);
#endif
ip.sin_family = AF_INET;
ip.sin_addr.s_addr = INADDR_ANY;
ip.sin_port = htons(portnum);
if (bind(mysock,(struct sockaddr *)&ip,sizeof(ip)) != SOCKET_ERROR)
{
myport = portnum;
if (gethostname(hostnam,sizeof(hostnam)) != SOCKET_ERROR)
if ((lpHostEnt = gethostbyname(hostnam)))
{
myip = ip.sin_addr.s_addr = *(long *)lpHostEnt->h_addr;
printf("mmulti: This machine's IP is %s\n", inet_ntoa(ip.sin_addr));
}
return(1);
}
return(0);
}
long netsend (long other, char *dabuf, long bufsiz) //0:buffer full... can't send
{
struct sockaddr_in ip;
if (!otherip[other]) return(0);
/*Addfaz NatFree Start*/
if (natfree && !nfFinished)
{
if (other == connecthead && !nfCheckHF(connecthead))
return(0); //Only greet the connecthead if we've heard from them.
if (myconnectindex != connecthead)
{
if (!nfCheckCP(other) && other != connecthead)
return(0); //Only connect to currentplayer or connecthead
else if (!nfCheckCP(other) && !nfCheckHF(other))
return(0);
}
}
/*Addfaz NatFree End*/
ip.sin_family = AF_INET;
ip.sin_addr.s_addr = otherip[other];
ip.sin_port = otherport[other];
return(sendto(mysock,dabuf,bufsiz,0,(struct sockaddr *)&ip,sizeof(struct sockaddr_in)) != SOCKET_ERROR);
}
long netread (long *other, char *dabuf, long bufsiz) //0:no packets in buffer
{
struct sockaddr_in ip;
long i;
i = sizeof(ip);
if (recvfrom(mysock,dabuf,bufsiz,0,(struct sockaddr *)&ip,(int *)&i) == -1) return(0);
#if (SIMMIS > 0)
if ((rand()&255) < SIMMIS) return(0);
#endif
snatchip = (long)ip.sin_addr.s_addr; snatchport = (long)ip.sin_port;
(*other) = myconnectindex;
for (i=0;i<MAXPLAYERS;i++)
if ((otherip[i] == snatchip) && (otherport[i] == snatchport))
{ (*other) = i; break; }
/*Addfaz NatFree Start*/
if (natfree && !nfFinished)
{
if (!nfCheckHF((*other))) //Check if have heard from this player already
{
if (otherip[nfCurrentPlayer] == snatchip) //Check IP Matches
{
if (!nfCheckHF(nfCurrentPlayer) && !HeardFrom2[nfCurrentPlayer])
{
if (otherport[nfCurrentPlayer] != snatchport) //If Port numbers do not match
{
initprintf("natfree: port number for player %d changed from %d to %d.\n",nfCurrentPlayer,otherport[nfCurrentPlayer],snatchport);
otherport[nfCurrentPlayer] = snatchport; //Correct the port number
}
}
(*other) = nfCurrentPlayer; //Set pointer
if (!nfCheckHF(nfCurrentPlayer) && myconnectindex != connecthead)
{
HeardFrom[nfCurrentPlayer] = 1;
}
}
}
else
{
HeardFrom[i] = 1;
HeardFrom2[i] = 1;
}
}
/*Addfaz NatFree Endt*/
#if (SIMLAG > 1)
i = simlagcnt[*other]%(SIMLAG+1);
*(short *)&simlagfif[*other][i][0] = bufsiz; memcpy(&simlagfif[*other][i][2],dabuf,bufsiz);
simlagcnt[*other]++; if (simlagcnt[*other] < SIMLAG+1) return(0);
i = simlagcnt[*other]%(SIMLAG+1);
bufsiz = *(short *)&simlagfif[*other][i][0]; memcpy(dabuf,&simlagfif[*other][i][2],bufsiz);
#endif
return(1);
}
long isvalidipaddress (char *st)
{
long i, bcnt, num;
bcnt = 0; num = 0;
for (i=0;st[i];i++)
{
if (st[i] == '.') { bcnt++; num = 0; continue; }
if (st[i] == ':')
{
if (bcnt != 3) return(0);
num = 0;
for (i++;st[i];i++)
{
if ((st[i] >= '0') && (st[i] <= '9'))
{ num = num*10+st[i]-'0'; if (num >= 65536) return(0); }
else return(0);
}
return(1);
}
if ((st[i] >= '0') && (st[i] <= '9'))
{ num = num*10+st[i]-'0'; if (num >= 256) return(0); }
}
return(bcnt == 3);
}
//---------------------------------- Obsolete variables&functions ----------------------------------
char syncstate = 0;
void setpackettimeout (long datimeoutcount, long daresendagaincount) {}
void genericmultifunction (long other, char *bufptr, long messleng, long command) {}
long getoutputcirclesize () { return(0); }
void setsocket (long newsocket) { }
void flushpackets () {}
void sendlogon () {}
void sendlogoff () {}
//--------------------------------------------------------------------------------------------------
static long crctab16[256];
static void initcrc16 ()
{
long i, j, k, a;
for (j=0;j<256;j++)
{
for (i=7,k=(j<<8),a=0;i>=0;i--,k=((k<<1)&65535))
{
if ((k^a)&0x8000) a = ((a<<1)&65535)^0x1021;
else a = ((a<<1)&65535);
}
crctab16[j] = (a&65535);
}
}
#define updatecrc16(crc,dat) crc = (((crc<<8)&65535)^crctab16[((((unsigned short)crc)>>8)&65535)^dat])
static unsigned short getcrc16 (char *buffer, long bufleng)
{
long i, j;
j = 0;
for (i=bufleng-1;i>=0;i--) updatecrc16(j,buffer[i]);
return((unsigned short)(j&65535));
}
void uninitmultiplayers () { netuninit(); }
long getpacket(long *, char *);
static void initmultiplayers_reset(void)
{
long i;
initcrc16();
memset(icnt0,0,sizeof(icnt0));
memset(ocnt0,0,sizeof(ocnt0));
memset(ocnt1,0,sizeof(ocnt1));
memset(ipak,0,sizeof(ipak));
//memset(opak,0,sizeof(opak)); //Don't need to init opak
//memset(pakmem,0,sizeof(pakmem)); //Don't need to init pakmem
#if (SIMLAG > 1)
memset(simlagcnt,0,sizeof(simlagcnt));
#endif
lastsendtims[0] = GetTickCount();
for (i=1;i<MAXPLAYERS;i++) lastsendtims[i] = lastsendtims[0];
numplayers = 1; myconnectindex = 0;
memset(otherip,0,sizeof(otherip));
for (i=0;i<MAXPLAYERS;i++) otherport[i] = htons(NETPORT);
}
// Multiplayer command line summary. Assume myconnectindex always = 0 for 192.168.1.2
//
// /n0 (mast/slav) 2 player: 3 player:
// 192.168.1.2 game /n0 game /n0:3
// 192.168.1.100 game /n0 192.168.1.2 game /n0 192.168.1.2
// 192.168.1.4 game /n0 192.168.1.2
//
// /n1 (peer-peer) 2 player: 3 player:
// 192.168.1.2 game /n1 192.168.1.100 game /n1 192.168.1.100 192.168.1.4
// 192.168.1.100 game 192.168.1.2 /n1 game 192.168.1.2 /n1 192.168.1.4
// 192.168.1.4 game 192.168.1.2 192.168.1.100 /n1
long initmultiplayersparms(long argc, char **argv)
{
long i, j, daindex, portnum = NETPORT;
char *st;
initmultiplayers_reset();
danetmode = 255; daindex = 0;
// go looking for the port, if specified
for (i=0;i<argc;i++) {
if (argv[i][0] != '-' && argv[i][0] != '/') continue;
if ((argv[i][1] == 'p' || argv[i][1] == 'P') && argv[i][2]) {
char *p;
j = strtol(argv[i]+2, &p, 10);
if (!(*p) && j > 1024 && j<65535) portnum = j;
printf("mmulti: Using port %ld\n", portnum);
}
}
netinit(portnum);
for (i=0;i<argc;i++)
{
//if (((argv[i][0] == '/') || (argv[i][0] == '-')) &&
// ((argv[i][1] == 'N') || (argv[i][1] == 'n')) &&
// ((argv[i][2] == 'E') || (argv[i][2] == 'e')) &&
// ((argv[i][3] == 'T') || (argv[i][3] == 't')) &&
// (!argv[i][4]))
// { foundnet = 1; continue; }
//if (!foundnet) continue;
if ((argv[i][0] == '-') || (argv[i][0] == '/')) {
if ((argv[i][1] == 'N') || (argv[i][1] == 'n') || (argv[i][1] == 'I') || (argv[i][1] == 'i'))
{
numplayers = 2;
if (argv[i][2] == '0')
{
danetmode = 0;
if ((argv[i][3] == ':') && (argv[i][4] >= '0') && (argv[i][4] <= '9'))
{
numplayers = (argv[i][4]-'0');
if ((argv[i][5] >= '0') && (argv[i][5] <= '9')) numplayers = numplayers*10+(argv[i][5]-'0');
printf("mmulti: %ld-player game\n", numplayers);
}
printf("mmulti: Master-slave mode\n");
}
else if (argv[i][2] == '1')
{
danetmode = 1;
myconnectindex = daindex; daindex++;
printf("mmulti: Peer-to-peer mode\n");
}
continue;
}
else if ((argv[i][1] == 'P') || (argv[i][1] == 'p')) continue;
}
st = strdup(argv[i]); if (!st) break;
if (isvalidipaddress(st))
{
if ((danetmode == 1) && (daindex == myconnectindex)) daindex++;
for (j=0;st[j];j++) {
if (st[j] == ':')
{ otherport[daindex] = htons((unsigned short)atol(&st[j+1])); st[j] = 0; break; }
}
otherip[daindex] = inet_addr(st);
printf("mmulti: Player %ld at %s:%d\n",daindex,st,ntohs(otherport[daindex]));
daindex++;
}
else
{
LPHOSTENT lph;
unsigned short pt = htons(NETPORT);
for (j=0;st[j];j++)
if (st[j] == ':')
{ pt = htons((unsigned short)atol(&st[j+1])); st[j] = 0; break; }
if ((lph = gethostbyname(st)))
{
if ((danetmode == 1) && (daindex == myconnectindex)) daindex++;
otherip[daindex] = *(long *)lph->h_addr;
otherport[daindex] = pt;
printf("mmulti: Player %ld at %s:%d (%s)\n",daindex,
inet_ntoa(*(struct in_addr *)lph->h_addr),ntohs(pt),argv[i]);
daindex++;
} else printf("mmulti: Failed resolving %s\n",argv[i]);
}
free(st);
}
if ((danetmode == 255) && (daindex)) { numplayers = 2; danetmode = 0; } //an IP w/o /n# defaults to /n0
if ((numplayers >= 2) && (daindex) && (!danetmode)) myconnectindex = 1;
if (daindex > numplayers) numplayers = daindex;
//for(i=0;i<numplayers;i++)
// printf("Player %d: %d.%d.%d.%d:%d\n",i,otherip[i]&255,(otherip[i]>>8)&255,(otherip[i]>>16)&255,((unsigned long)otherip[i])>>24,ntohs(otherport[i]));
connecthead = 0;
for (i=0;i<numplayers-1;i++) connectpoint2[i] = i+1;
connectpoint2[numplayers-1] = -1;
// return (((!danetmode) && (numplayers >= 2)) || (numplayers == 2));
return (numplayers >= 2);
}
long initmultiplayerscycle(void)
{
long i, k;
extern long totalclock;
#ifdef _WIN32
Sleep(1);
#else
usleep(1);
#endif
getpacket(&i,0);
tims = GetTickCount();
if (myconnectindex == connecthead) //Player 0 only
{
for (i=numplayers-1;i>0;i--)
if (!otherip[i]) break;
if (!i) {
nfIncCP(); //Addfaz NatFree
netready = 1; //Player 0 is ready
return 0;
}
}
else
{
if (netready) return 0;
if (tims < lastsendtims[connecthead]) lastsendtims[connecthead] = tims;
if (tims >= lastsendtims[connecthead]+250) //1000/PAKRATE)
{
lastsendtims[connecthead] = tims;
// short crc16ofs; //offset of crc16
// long icnt0; //-1 (special packet for MMULTI.C's player collection)
// ...
// unsigned short crc16; //CRC16 of everything except crc16
k = 2;
*(long *)&pakbuf[k] = -1; k += 4;
pakbuf[k++] = 0xaa;
*(unsigned short *)&pakbuf[0] = (unsigned short)k;
*(unsigned short *)&pakbuf[k] = getcrc16(pakbuf,k); k += 2;
netsend(connecthead,pakbuf,k);
}
}
return 1;
}
void initmultiplayers (long argc, char **argv, char damultioption, char dacomrateoption, char dapriority)
{
long i, j, k, otims;
if (initmultiplayersparms(argc,argv))
{
#if 0
//Console code seems to crash Win98 upon quitting game
//it's not necessary and it's not portable anyway
char tbuf[1024];
unsigned long u;
HANDLE hconsout;
AllocConsole();
SetConsoleTitle("Multiplayer status...");
hconsout = GetStdHandle(STD_OUTPUT_HANDLE);
otims = 0;
#endif
while (initmultiplayerscycle())
{
#if 0
if ((tims < otims) || (tims > otims+100))
{
otims = tims;
sprintf(tbuf,"\rWait for players (%d/%d): ",myconnectindex,numplayers);
for (i=0;i<numplayers;i++)
{
if (i == myconnectindex) { strcat(tbuf,"<me> "); continue; }
if (!otherip[i]) { strcat(tbuf,"?.?.?.?:? "); continue; }
sprintf(&tbuf[strlen(tbuf)],"%d.%d.%d.%d:%04x ",otherip[i]&255,(otherip[i]>>8)&255,(otherip[i]>>16)&255,(((unsigned long)otherip[i])>>24),otherport[i]);
}
WriteConsole(hconsout,tbuf,strlen(tbuf),&u,0);
}
}
FreeConsole();
#else
}
#endif
}
netready = 1;
}
void dosendpackets (long other) //Host to send intially, client to send to others once heard from host.
{
long i, j, k;
if (!otherip[other]) return;
//Packet format:
// short crc16ofs; //offset of crc16
// long icnt0; //earliest unacked packet
// char ibits[32]; //ack status of packets icnt0<=i<icnt0+256
// while (short leng) //leng: !=0 for packet, 0 for no more packets
// {
// long ocnt; //index of following packet data
// char pak[leng]; //actual packet data :)
// }
// unsigned short crc16; //CRC16 of everything except crc16
tims = GetTickCount();
if (tims < lastsendtims[other]) lastsendtims[other] = tims;
if (tims < lastsendtims[other]+1000/PAKRATE) return;
lastsendtims[other] = tims;
k = 2;
*(long *)&pakbuf[k] = icnt0[other]; k += 4;
memset(&pakbuf[k],0,32);
for (i=icnt0[other];i<icnt0[other]+256;i++)
if (ipak[other][i&(FIFSIZ-1)])
pakbuf[((i-icnt0[other])>>3)+k] |= (1<<((i-icnt0[other])&7));
k += 32;
while ((ocnt0[other] < ocnt1[other]) && (!opak[other][ocnt0[other]&(FIFSIZ-1)])) ocnt0[other]++;
for (i=ocnt0[other];i<ocnt1[other];i++)
{
j = *(short *)&pakmem[opak[other][i&(FIFSIZ-1)]]; if (!j) continue; //packet already acked
if (k+6+j+4 > (long)sizeof(pakbuf)) break;
*(unsigned short *)&pakbuf[k] = (unsigned short)j; k += 2;
*(long *)&pakbuf[k] = i; k += 4;
memcpy(&pakbuf[k],&pakmem[opak[other][i&(FIFSIZ-1)]+2],j); k += j;
}
*(unsigned short *)&pakbuf[k] = 0; k += 2;
*(unsigned short *)&pakbuf[0] = (unsigned short)k;
*(unsigned short *)&pakbuf[k] = getcrc16(pakbuf,k); k += 2;
//printf("Send: "); for(i=0;i<k;i++) printf("%02x ",pakbuf[i]); printf("\n");
/*Addfaz NatFree Start*/
if (nfCheckCP(other) || !natfree) //Clients only if heard from host
netsend(other,pakbuf,k);
/*Addfaz NatFree End*/
}
void sendpacket (long other, char *bufptr, long messleng)
{
long i, j;
if (numplayers < 2) return;
if (pakmemi+messleng+2 > (long)sizeof(pakmem)) pakmemi = 1;
opak[other][ocnt1[other]&(FIFSIZ-1)] = pakmemi;
*(short *)&pakmem[pakmemi] = messleng;
memcpy(&pakmem[pakmemi+2],bufptr,messleng); pakmemi += messleng+2;
ocnt1[other]++;
//printf("Send: "); for(i=0;i<messleng;i++) printf("%02x ",bufptr[i]); printf("\n");
dosendpackets(other);
}
//passing bufptr == 0 enables receive&sending raw packets but does not return any received packets
//(used as hack for player collection)
long getpacket (long *retother, char *bufptr)
{
long i, j, k, ic0, crc16ofs, messleng, other;
if (numplayers < 2) return(0);
if (netready)
{
for (i=connecthead;i>=0;i=connectpoint2[i])
{
if (i != myconnectindex) dosendpackets(i);
if ((!danetmode) && (myconnectindex != connecthead)) break; //slaves in M/S mode only send to master
}
}
while (netread(&other,pakbuf,sizeof(pakbuf)))
{
//Packet format:
// short crc16ofs; //offset of crc16
// long icnt0; //earliest unacked packet
// char ibits[32]; //ack status of packets icnt0<=i<icnt0+256
// while (short leng) //leng: !=0 for packet, 0 for no more packets
// {
// long ocnt; //index of following packet data
// char pak[leng]; //actual packet data :)
// }
// unsigned short crc16; //CRC16 of everything except crc16
k = 0;
crc16ofs = (long)(*(unsigned short *)&pakbuf[k]); k += 2;
//printf("Recv: "); for(i=0;i<crc16ofs+2;i++) printf("%02x ",pakbuf[i]); printf("\n");
if ((crc16ofs+2 <= (long)sizeof(pakbuf)) && (getcrc16(pakbuf,crc16ofs) == (*(unsigned short *)&pakbuf[crc16ofs])))
{
ic0 = *(long *)&pakbuf[k]; k += 4;
if (ic0 == -1)
{
//Slave sends 0xaa to Master at initmultiplayers() and waits for 0xab response
//Master responds to slave with 0xab whenever it receives a 0xaa - even if during game!
if ((pakbuf[k] == 0xaa) && (myconnectindex == connecthead))
{
for (other=1;other<numplayers;other++)
{
//Only send to others asking for a response
if ((otherip[other]) && ((otherip[other] != snatchip) || (otherport[other] != snatchport))) continue;
otherip[other] = snatchip;
otherport[other] = snatchport;
// short crc16ofs; //offset of crc16
// long icnt0; //-1 (special packet for MMULTI.C's player collection)
// ...
// unsigned short crc16; //CRC16 of everything except crc16
k = 2;
*(long *)&pakbuf[k] = -1; k += 4;
pakbuf[k++] = 0xab;
pakbuf[k++] = (char)other;
pakbuf[k++] = (char)numplayers;
*(unsigned short *)&pakbuf[0] = (unsigned short)k;
*(unsigned short *)&pakbuf[k] = getcrc16(pakbuf,k); k += 2;
/*Addfaz NatFree Start*/
if (natfree && !nfCheckHF(other))
{
initprintf("natfree: heard from player %d\n", other);
HeardFrom[other] = 1;
HeardFrom2[other] = 1;
nfIncCP();
}
/*Addfaz NatFree End*/
netsend(other,pakbuf,k);
break;
}
}
else if ((pakbuf[k] == 0xab) && (myconnectindex != connecthead))
{
if (((unsigned long)pakbuf[k+1] < (unsigned long)pakbuf[k+2]) &&
((unsigned long)pakbuf[k+2] < (unsigned long)MAXPLAYERS))
{
myconnectindex = (long)pakbuf[k+1];
numplayers = (long)pakbuf[k+2];
connecthead = 0;
for (i=0;i<numplayers-1;i++) connectpoint2[i] = i+1;
connectpoint2[numplayers-1] = -1;
otherip[connecthead] = snatchip;
otherport[connecthead] = snatchport;
netready = 1;
/*Addfaz NatFree Start*/
if (natfree)
{
initprintf("natfree: heard from player %d (head).\n", connecthead);
HeardFrom[connecthead] = 1;
HeardFrom2[connecthead] = 1;
nfIncCP();
}
/*Addfaz NatFree End*/
}
}
}
else
{
if (ocnt0[other] < ic0) ocnt0[other] = ic0;
for (i=ic0;i<min(ic0+256,ocnt1[other]);i++)
if (pakbuf[((i-ic0)>>3)+k]&(1<<((i-ic0)&7)))
opak[other][i&(FIFSIZ-1)] = 0;
k += 32;
messleng = (long)(*(unsigned short *)&pakbuf[k]); k += 2;
while (messleng)
{
j = *(long *)&pakbuf[k]; k += 4;
if ((j >= icnt0[other]) && (!ipak[other][j&(FIFSIZ-1)]))
{
if (pakmemi+messleng+2 > (long)sizeof(pakmem)) pakmemi = 1;
ipak[other][j&(FIFSIZ-1)] = pakmemi;
*(short *)&pakmem[pakmemi] = messleng;
memcpy(&pakmem[pakmemi+2],&pakbuf[k],messleng); pakmemi += messleng+2;
}
k += messleng;
messleng = (long)(*(unsigned short *)&pakbuf[k]); k += 2;
}
}
}
}
//Return next valid packet from any player
if (!bufptr) return(0);
for (i=connecthead;i>=0;i=connectpoint2[i])
{
if (i != myconnectindex)
{
j = ipak[i][icnt0[i]&(FIFSIZ-1)];
if (j)
{
messleng = *(short *)&pakmem[j]; memcpy(bufptr,&pakmem[j+2],messleng);
*retother = i; ipak[i][icnt0[i]&(FIFSIZ-1)] = 0; icnt0[i]++;
//printf("Recv: "); for(i=0;i<messleng;i++) printf("%02x ",bufptr[i]); printf("\n");
/*Addfaz NatFree Start*/
if (natfree && !HeardFrom2[nfCurrentPlayer] && i == nfCurrentPlayer)
{
initprintf("natfree: heard from player %d.\n", i);
HeardFrom2[nfCurrentPlayer] = 1;
HeardFrom[nfCurrentPlayer] = 1;
nfIncCP();
}
/*Addfaz NatFree End*/
return(messleng);
}
}
if ((!danetmode) && (myconnectindex != connecthead)) break; //slaves in M/S mode only send to master
}
return(0);
}
char tempbuf[512],ipaddr[32];
const char *getexternaladdress(void)
{
int sockfd, bytes_sent, i=0, j=0;
struct sockaddr_in dest_addr;
struct hostent *h;
char *host = "checkip.dyndns.org";
char *req = "GET / HTTP/1.0\r\n\r\n";
if (ipaddr[0])
return(ipaddr);
#ifdef _WIN32
{
WSADATA ws;
if (WSAStartup(0x101,&ws) == SOCKET_ERROR) {
initprintf("mmulti: Winsock error in getexternaladdress() (%d)\n",errno);
return(0);
}
}
#endif
if ((h=gethostbyname(host)) == NULL) {
initprintf("mmulti: gethostbyname() error in getexternaladdress() (%d)\n",h_errno);
return(0);
}
dest_addr.sin_addr.s_addr = ((struct in_addr *)(h->h_addr))->s_addr;
dest_addr.sin_family = AF_INET;
dest_addr.sin_port = htons(8245);
memset(&(dest_addr.sin_zero), '\0', 8);
sockfd = socket(PF_INET, SOCK_STREAM, 0);
if (sockfd == SOCKET_ERROR) {
initprintf("mmulti: socket() error in getexternaladdress() (%d)\n",errno);
return(0);
}
if (connect(sockfd, (struct sockaddr *)&dest_addr, sizeof(struct sockaddr)) == SOCKET_ERROR) {
initprintf("mmulti: connect() error in getexternaladdress() (%d)\n",errno);
return(0);
}
bytes_sent = send(sockfd, req, strlen(req), 0);
if (bytes_sent == SOCKET_ERROR) {
initprintf("mmulti: send() error in getexternaladdress() (%d)\n",errno);
return(0);
}
// initprintf("sent %d bytes\n",bytes_sent);
recv(sockfd, (char *)&tempbuf, sizeof(tempbuf), 0);
closesocket(sockfd);
#ifdef _WIN32
WSACleanup();
#endif
for (i=0;(unsigned)i<strlen(tempbuf);i++)
{
if (isdigit(tempbuf[i]) && (isdigit(tempbuf[i+1]) || (tempbuf[i+1] == '.')) && (isdigit(tempbuf[i+2]) || (tempbuf[i+2] == '.')) && (isdigit(tempbuf[i+3]) || (tempbuf[i+3] == '.')))
{
while (isdigit(tempbuf[i]) || (tempbuf[i] == '.'))
{
ipaddr[j] = tempbuf[i];
i++, j++;
}
ipaddr[j] = '\0';
break;
}
}
return(ipaddr);
}